BIOIMPEDANCE: NEW APPROACH TO NON-INVASIVE DETECTION OF LIVER FIBROSIS - A PILOT STUDY

Bioimpedance measurements of fibrotic and acutely injured lung tissues

In injured and diseased tissues, changes in molecular and cellular compositions, as well as tissue architecture, lead to alterations in both physiological and physical characteristics. Notably, the electrical properties of tissues, which can be characterized as bioelectrical impedance (bioimpedance), are closely linked to the health and pathological conditions of the tissues. This highlights the significant role of quantitatively characterizing these electrical properties in improving the accuracy and speed of diagnosis and prognosis. In this study, we investigate how diseases, injuries, and physical conditions can affect the electrical properties of lung tissues, using both rat and human lung tissue samples. Results showed that rat lung and trachea tissues exhibit a frequency-dependent behavior to alternating current (AC) across the frequency range of 0.1-300 kHz. The bioimpedance of the lung tissue increased with the level of aeration of the lung, which was manipulated by altering alveolar pressure (PALV: 1-15 cmH2O; bioimpedance level: 1.2-2.8 kΩ; AC frequency: 2 kHz). This increase is mainly because air is electrically nonconductive. The bioimpedance of rat lungs injured via intratracheal aspiration of hydrochloric acid (HCl; volume: 1 mL; AC frequency: 2 kHz) decreased by at least 82 % compared to that of healthy control lungs due to accumulation of fluids inside the airspace of the injured lungs. Moreover, using decellularized lung tissues, we determined the contributions of cellular components and tissue extracellular matrix (ECM) on the electrical characteristics of the lung tissues. Specifically, we observed a considerable increase in bioimpedance in fibrotic human lung tissues due to excessive ECM deposition (healthy: 70.8 Ω ± 10.2 Ω, fibrotic: 132.1 Ω ± 15.8 Ω, frequency: 2 kHz). Overall, the findings of this study can enhance our understanding of the correlation between electrical properties and pathological lung conditions, thereby improving diagnostic and prognostic capabilities and aiding in the treatment of lung diseases and injuries. STATEMENT OF SIGNIFICANCE: The bioelectrical properties of tissue are closely linked to both its physiological and physical characteristics. This underscores the importance of quantitatively characterizing these properties to improve the accuracy and speed of diagnosis and prognosis. In this study, we investigate how the bioelectrical properties of lung tissues are affected by different physical states and pathological conditions using rat and human lung tissues. As the burden of lung diseases continues to increase, our findings can contribute to improved treatment outcomes by enabling accurate and rapid assessment of lung tissue conditions.

Electrical Impedance-Based Characterization of Hepatic Tissue with Early-Stage Fibrosis

Liver fibrosis is a key pathological precondition for hepatocellular carcinoma in which the severity is confidently correlated with liver cancer. Liver fibrosis, characterized by gradual cell loss and excessive extracellular matrix deposition, can be reverted if detected at the early stage. The gold standard for staging and diagnosis of liver fibrosis is undoubtedly biopsy. However, this technique needs careful sample preparation and expert analysis. In the present work, an ex vivo, minimally destructive, label-free characterization of liver biopsies is presented. Through a custom-made experimental setup, liver biopsies of bile-duct-ligated and sham-operated mice were measured at 8, 15, and 21 days after the procedure. Changes in impedance were observed with the progression of fibrosis, and through data fitting, tissue biopsies were approximated to an equivalent RC circuit model. The model was validated by means of 3D hepatic cell culture measurement, in which the capacitive part of impedance was proportionally associated with cell number and the resistive one was proportionally associated with the extracellular matrix. While the sham-operated samples presented a decrease in resistance with time, the bile-duct-ligated ones exhibited an increase in this parameter with the evolution of fibrosis. Moreover, since the largest difference in resistance between healthy and fibrotic tissue, of around 2 kΩ, was found at 8 days, this method presents great potential for the study of fibrotic tissue at early stages. Our data point out the great potential of exploiting the proposed needle setup in clinical applications.

Optimization, fabrication, and characterization of four electrode-based sensors for blood impedance measurement

In this work, an optimized, non-invasive four electrode-based impedimetric sensors have been designed, fabricated, and characterized for measuring the impedance of a biological cell. The impedimetric sensors having four mono-polar electrodes were fabricated utilizing the photolithography technique with gold as the electrode material. Furthermore, the impedance of the electrolyte/electrode interface was simulated by optimizing different parameters, including applied voltage, PBS thickness, and diameter, using COMSOL Multiphysics software for a frequency range of 100 Hz to 1 MHz. Next, the impedance of the fabricated device was measured experimentally using the electrochemical impedance spectroscopy (EIS) technique. Then, the COMSOL data was equated with the impedance obtained from the fabricated devices to realize the feasibility and error percentage (RSE < 5%) of the sensor. The equivalent circuit model for the measured impedance data of PBS was obtained utilizing the ZsimpWin software. Besides, the mathematical relations between the impedance, phase angle and the area of the electrode were interpreted for the fabricated impedimetric sensors. Later on, a real blood sample was also characterized to demonstrate the feasibility and the validity of the proposed technique and the fabricated devices in cell diagnosis.

Arm Skeletal Muscle Mass Is Associated With the Prognosis of Patients With Cirrhosis

BACKGROUND/AIM

This study aimed to assess the clinical significance of measuring the arm skeletal muscle mass in patients with cirrhosis.

PATIENTS AND METHODS

Using body composition data measured with the bioimpedance analysis (BIA) method, the skeletal muscle mass index (SMI) values of the arm (arm skeletal muscle mass/height2) and leg (leg skeletal mass muscle/height2) were calculated for 353 patients with cirrhosis, and the relationships of these indices to their prognosis were assessed. In addition, overhydration of the upper and lower limbs was compared.

RESULTS

Arm SMI was significantly positively associated with the prognosis of patients with cirrhosis (p=0.0002) but leg SMI was not (p=0.0829). The rate of overhydration in the lower limbs was significantly higher than that in the upper limbs (p<0.0001).

CONCLUSION

Arm SMI measured with the BIA method was suggested to be minimally affected by water retention, and might be clinically useful for patients with cirrhosis.

Extracellular Water to Total Body Water Ratio in Viral Liver Diseases: A Study Using Bioimpedance Analysis

AIMS

To investigate the relationship between extracellular water to total body water ratio (ECW/TBW) in bioimpedance analysis (BIA) and clinical parameters in hepatitis viruses related to liver diseases.

METHODS

ECW/TBW was compared in patients with hepatitis B virus (HBV, n = 85) and hepatitis C virus (HCV, n = 440) related liver diseases. We also examined factors linked to mild to severe overhydrated state (ECW/TBW ≥0.4).

RESULTS

The median ECW/TBW in the HCV group was 0.388 (range, 0.365⁻0.433), while that in the HBV group was 0.381 (range, 0.363⁻0.425) (p < 0.0001). In all cases (n = 525), for predicting F3 or more, ECW/TBW yielded the area under the receiver operating characteristics (AUROC, 0.74912) and for predicting F4, ECW/TBW yielded the AUROC (0.75517). Multivariate analysis showed that age, prothrombin time, serum albumin, and alanine aminotransferase were significant factors linked to ECW/TBW ≥0.4. In patients with FIB-4 index <2, ECW/TBW in the HCV group was significantly higher than that in the HBV group (p = 0.0188), while in patients with 2 ≤ FIB-4 index <4 and FIB-4 index ≥4, the difference in the two groups did not reach significance.

CONCLUSION

ECW/TBW can be different according to hepatitis viruses. Overhydrated status can easily occur in the HCV group even in the non-LC status compared with the HBV group.